The sleep-wake cycle in adult rats following pilocarpine-induced temporal lobe epilepsy.

The relationship between sleep and epilepsy is both complex and clinically significant. Temporal lobe epilepsy (TLE) influences sleep architecture, while sleep plays an important role in facilitating and/or inhibiting possible epileptic seizures. The pilocarpine experimental model reproduces several features of human temporal lobe epilepsy and is one of the most widely used models in basic research. The aim of the present study was to characterize, behaviorally and electrophysiologically, the phases of sleep-wake cycles (SWC) in male rats with pilocarpine-induced epilepsy. Epileptic rats presented spikes in all phases of the SWC as well as atypical cortical synchronization during attentive wakefulness and paradoxical sleep. The architecture of the sleep-wake phases was altered in epileptic rats, as was the integrity of the SWC. Because our findings reproduce many relevant features observed in patients with epilepsy, this model is suitable to study sleep dysfunction in epilepsy.

Pre and post-natal exposure to ambient level of air pollution impairs memory of rats: the role of oxidative stress.

The aims of this study were to evaluate whether air pollution during pre-natal and post-natal phases change habituation and short-term discriminative memories and if oxidants are involved in this process. As secondary objectives, it was to evaluate if the change of filtered to nonfiltered environment could protect the cortex of rats against oxidative stress as well as to modify the behavior of these animals. Wistar, male rats were divided into four groups (n = 12/group): pre and post-natal exposure until adulthood to filtered air (FA); pre-natal period to nonfiltered air (NFA-FA); until (21st post-natal day) and post-natal to filtered air until adulthood (PND21); pre-natal to filtered air until PND21 and post-natal to nonfiltered air until adulthood (FA-NFA); pre and post-natal to nonfiltered air (NFA). After 150 days of air pollution exposure, animals were tested in the spontaneous object recognition test to evaluate short-term discriminative and habituation memories. Rats were euthanized; blood was collected for metal determination; cortex dissected for oxidative stress evaluation. There was a significant increase in malondialdehyde (MDA) levels in the NFA group when compared to other groups (FA: 1.730 +/- 0.217; NFA-FA: 1.101 +/- 0.217; FA-NFA: 1.014 +/- 0.300; NFA: 5.978 +/- 1.920 nmol MDA/mg total proteins; p = 0.007). NFA group presented a significant decrease in short-term discriminative (FA: 0.603 +/- 0.106; NFA-FA: 0.669 +/- 0.0666; FA-NFA: 0.374 +/- 0.178; NFA: -0.00631 +/- 0.106 sec; p = 0.006) and an improvement in habituation memories when compared to other groups. Therefore, exposure to air pollution during both those periods impairs short-term discriminative memory and cortical oxidative stress may mediate this process.

Efferent projections of reuniens and rhomboid nuclei of the thalamus in the rat.

The nucleus reuniens (RE) is the largest of the midline nuclei of the thalamus and exerts strong excitatory actions on the hippocampus and medial prefrontal cortex. Although RE projections to the hippocampus have been well documented, no study using modern tracers has examined the totality of RE projections. With the anterograde anatomical tracer Phaseolus vulgaris leuccoagglutinin, we examined the efferent projections of RE as well as those of the rhomboid nucleus (RH) located dorsal to RE. Control injections were made in the central medial nucleus (CEM) of the thalamus. We showed that the output of RE is almost entirely directed to the hippocampus and "limbic" cortical structures. Specifically, RE projects strongly to the medial frontal polar, anterior piriform, medial and ventral orbital, anterior cingulate, prelimbic, infralimbic, insular, perirhinal, and entorhinal cortices as well as to CA1, dorsal and ventral subiculum, and parasubiculum of the hippocampus. RH distributes more widely than RE, that is, to several RE targets but also significantly to regions of motor, somatosensory, posterior parietal, retrosplenial, temporal, and occipital cortices; to nucleus accumbens; and to the basolateral nucleus of amygdala. The ventral midline thalamus is positioned to exert significant control over fairly widespread regions of the cortex (limbic, sensory, motor), hippocampus, dorsal and ventral striatum, and basal nuclei of the amygdala, possibly to coordinate limbic and sensorimotor functions. We suggest that RE/RH may represent an important conduit in the exchange of information between subcortical-cortical and cortical-cortical limbic structures potentially involved in the selection of appropriate responses to specific and changing sets of environmental conditions.

Time-related effects of general functional training in spinal cord-injured rats.

OBJECTIVES: This prospective, randomized, experimental study with rats aimed to investigate the influence of general treatment strategies on the motor recovery of Wistar rats with moderate contusive spinal cord injury. METHODS: A total of 51 Wistar rats were randomized into five groups: control, maze, ramp, runway, and sham (laminectomy only). The rats underwent spinal cord injury at the T9-T10 levels using the NYU-Impactor. Each group was trained for 12 minutes twice a week for two weeks before and five weeks after the spinal cord injury, except for the control group. Functional motor recovery was assessed with the Basso, Beattie, and Bresnahan Scale on the first postoperative day and then once a week for five weeks. The animals were euthanized, and the spinal cords were collected for histological analysis. RESULTS: Ramp and maze groups showed an earlier and greater functional improvement effect than the control and runway groups. However, over time, unexpectedly, all of the groups showed similar effects as the control group, with spontaneous recovery. There were no histological differences in the injured area between the trained and control groups. CONCLUSION: Short-term benefits can be associated with a specific training regime; however, the same training was ineffective at maintaining superior long-term recovery. These results might support new considerations before hospital discharge of patients with spinal cord injuries.

The relationship between sleep and epilepsy: evidence from clinical trials and animal models.

Interactions between sleep and epilepsy have been widely documented. Sleep can modulate epileptic phenomena, and epilepsy and seizures disorganize the macro- and micro-architecture of sleep. In turn, sleep deprivation exerts a strong influence on the occurrence of seizures and interictal epileptiform discharges. Recently, sleep disturbances occurring in conjunction with epilepsy have been suggested to lead to a worsening of the quality of life for patients with epilepsy. In addition, data from animal models clarify many gaps in this relationship. In this brief review, we present an outline of the interactions between sleep and epilepsy based on a thorough review of the existing literature.

Spontaneous absence-like activity in Wistar rats: Behavioral and electrographic characteristics and the effects of antiepileptic drugs / Atividade epiléptica espontânea tipo ausência em Ratos Wistar: características eletrográficas e comportamentais e os efeitos de drogas antiepilépticas

Current investigation describes the behavioral and electrographic characteristics of spontaneous absence-like seizures identified in Wistar rats (referred to here as FMUSP-rats, after the Faculty of Medicine, University of São Paulo, São Paulo State, Brazil), and characterized by spike -wave discharges (SWDs) in the neocortex and the hippocampus. After consanguineous crossing directed to an increased incidence of seizures, the latter were observed in almost all F9 offspring. FMUSP-rat seizures are expressed as immobility and concomitant SWDs, oscillating between 7.5 and 12 Hz in the frontoparietal cortex and the hippocampus. Behaviorally, they are mainly associated with clonic movements of the eyes, rostrum and vibrissae, the latter ranging between 1 and 70 seconds and occur at a rate of up to 229 per hour. Systemic injections of ethosuximide (0, 25, 50, 100, 250 mg kg-1) and of diazepam (15 mg kg-1) increased the latency for the first seizure and reduced both the hourly incidence of SWD bursts and their mean duration. Carbamazepine (30 mg kg-1) injections increased both the incidence and duration of the SWDs, leaving the latency for the first seizure unchanged. Comparisons between FMUSP-rats and well-established genetic models of absence seizures data indicated that the animals described herein might contribute towards studies on the neurological condition under analysis.

Neste estudo, descrevemos aspectos eletrográficos e comportamentais de atividade semelhante às crises de ausência identificadas em ratos Wistar (ratos FMUSP - Faculdade de Medicina da Universidade de São Paulo, Estado de São Paulo, Brasil), que são caracterizadas por descargas em forma de espícula-onda no neocórtex e no hipocampo em 100% dos ratos da geração F9 resultante de cruzamentos consanguíneos. As crises se manifestaram com imobilidade comportamental associada com atividade eletrográfica em forma de espícula -onda oscilando entre 7,5 e 12 Hz no córtex frontoparietal e no hipocampo. Também foram observados comportamentos associados como clonias oculares, rostrais e de vibrissa que duravam de 1 a 70 segundos podendo ocorrer a uma taxa de até 229 eventos por hora. Injeçõe sistêmicas de etosuximida (0, 25, 50, 100 e 250 mg kg-1) and of diazepam (15 mg kg-1) aumentaram a latência para a primeira crise e reduziram tanto a incidência quanto a duração das crises. Injeções de Carbamazepina (30 mg kg-1) aumentaram tanto a incidência quanto a duração das crises sem interferir na latência. Comparações feitas entre os ratos epilépticos FMUSP com os modelos genéticos de epilepsia bem estabelecidos na atualidade indicaram que o modelo aqui descrito pode contribuir para um melhor entendimento dos mecanismos relacionados a esta condição neurológica.

Time-related effects of general functional training in spinal cord-injured rats

OBJECTIVES: This prospective, randomized, experimental study with rats aimed to investigate the influence of general treatment strategies on the motor recovery of Wistar rats with moderate contusive spinal cord injury. METHODS: A total of 51 Wistar rats were randomized into five groups: control, maze, ramp, runway, and sham (laminectomy only). The rats underwent spinal cord injury at the T9-T10 levels using the NYU-Impactor. Each group was trained for 12 minutes twice a week for two weeks before and five weeks after the spinal cord injury, except for the control group. Functional motor recovery was assessed with the Basso, Beattie, and Bresnahan Scale on the first postoperative day and then once a week for five weeks. The animals were euthanized, and the spinal cords were collected for histological analysis. RESULTS: Ramp and maze groups showed an earlier and greater functional improvement effect than the control and runway groups. However, over time, unexpectedly, all of the groups showed similar effects as the control group, with spontaneous recovery. There were no histological differences in the injured area between the trained and control groups. CONCLUSION: Short-term benefits can be associated with a specific training regime; however, the same training was ineffective at maintaining superior long-term recovery. These results might support new considerations before hospital discharge of patients with spinal cord injuries.

On the functional role of consciousness

Organization of behavior is grounded on several stages of processing of information by the nervous system. Identification is one of such stages. Through identitication the original information, generated in sensory, automatic, mnemonic and volitional systems, acquires meaning. As one among other forms of identification of neural information the conscious process ensues the original event and precedes decision, organization and effectuation of the activity of the nervous system expressed as behavior. Awareness (that is so characteristic of mental activity during wakefulness), pathological hallucinations, dreaming and other forms of perceptive recognition of neural information always result in some particular pattern of behavion The conscious process, therefore, is neither an epiphenomenon with no ascribable function, nor a nonspecific, passive by-product of neural activity which just "watches" what is going on inside and outside of the body. It is neither an initial nor a final stage in organization of behavior but a specific, highly precise intermediate stage, a particular modality of neural processing which plays a definite function in such organization.